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## Classic Papers in Astronomy and Cosmology

Hellfire requested that I post a list of classic papers that one could use for reference when trying to understand the current state of astronomy and cosmology. I'll do so here, but if I could politely ask the following:

- Please do not debate the veracity of the papers in this thread. In fact, I think it would be best just to use this thread as a reference, so make a new thread if you want to discuss the content of any of the papers.
- If you would like to contribute a paper, please ensure that it's mainstream and that it has lot of citations (>~ 300). Citation counts can be found here.
- When contributing a paper, please include a brief description in more pedagogical terms than given in the abstract.

That should do it. I'll add new papers as time permits and as I think of them. The sample that I provide will certainly be biased and incomplete, as my exposure is limited and a lot of the classic papers come from the institution at which I'm studying, so please do not take exception to any of my choices. I'll list them in categories (like cosmology, stellar astronomy, etc.) for ease of reference.
 PhysOrg.com astronomy news on PhysOrg.com >> NASA builds unusual testbed for analyzing X-ray navigation technologies>> Subaru Telescope observations and CoRoT mission unveil future of the Sun>> Galaxy's Ring of Fire
 Recognitions: Gold Member Science Advisor Staff Emeritus Cosmology Press & Schechter 1974 - This paper describes, with a simple analytical model, the collapse of matter "halos" (a term that includes any overdensity, including galaxies and clusters of galaxies), which arise from the perturbations seen in the microwave background. The methodology has been embraced by cold dark matter theorists because it describes a simple bottom-up scenario, where the smaller halos form before the larger ones, exactly as one would expect in a CDM universe. PS74 is indispensible for the pencil and paper cosmologist because it gives a very simple means of describing the distribution of matter in the universe. Gunn & Gott 1972 - Unlike PS74, which treats the whole spectrum of "halos" and their distribution, this paper follows the collapse of an individual matter halo, demonstrating along the way the importance of accretion in performing such calculations. As a bonus, the end of the paper presents an early model of "ram-pressure stripping" for removing the gas from galaxies embedded in clusters, one of the requirements for reproducing the observed morphology-density relationship. Spergel et al. 2003 - Not a particularly old paper, but certainly one of the most important in cosmology today, the WMAP first-year release demonstrates how the CMB is used as a powerful constraint on the fundamental parameters of the universe. Not only did it independently confirm the values of many cosmological parameters that had been measured by other means, but it measured them more precisely than had ever been done before, ushering in what some would call an age of "precision cosmology". Guth 1982 - The paper that introduced the idea of inflation to the world and gave us the most likely explanation for why we lived in what seemed to be a perfectly flat universe. Many variations on the theme have since been proposed, but the original idea remains intact and it still seems to be a pretty good fit to the data. Reiss et al. 1998 - It had long been assumed that we lived in a decelerating universe because, after all, its theorized constituents (matter and radiation) could only slow the expansion. The above paper, analyzing data from Type Ia supernovae, gave us the first hard observational evidence that this assertion was incorrect and that there was some extra component (or "dark energy") driving the universe to accelerate. Later confirmed by WMAP, this discovery is still an enigma to theorists and suggests that there is still much we don't know about the universe in which we live. Alcock et al. 2000 - This paper doesn't quite make the 300 citation limit I listed above, but that's because it is the combination of many years of observing, with many, many papers along the way. The result that came out of the MACHO survey was extremely important because it ruled out an entire class of dark matter candidates and convinced most folks that dark matter would, most likely, turn out to be in particle form. There are still debates raging about whether or not massive objects can make up a non-negligible fraction of the dark matter in our galaxy, but it's relatively clear now that it can't be the majority. Zeldovich 1970 - It has long been known that galaxies tend to distribute themselves in filament and pancake-like structures, but it is hard to reproduce analytically because the mathematics of non-linear gravitational collapse are tricky. The model presented in this paper is a simple one in which gravitating bodies are shown to collapse along each of their principal axes in succession, producing pancake-like and filament-like structures along the way. Although originally created for different purposes, the model now provides an excellent means of deriving the initial conditions to cosmological N-Body simulations.
 Recognitions: Gold Member Science Advisor Thank you SpaceTiger for those references, this site is as good as having a very versed library service! It is a pity the Guth paper cannot be downloaded free, does anyone know where it may be obtained? Garth

Recognitions:
Gold Member
Staff Emeritus

## Classic Papers in Astronomy and Cosmology

 Quote by Garth It is a pity the Guth paper cannot be downloaded free, does anyone know where it may be obtained?
Unfortunately, I don't, and I suspect some of the other papers I post will be the same way. The links I provide will only be to the ADS abstract, since I'm assuming that service won't be going dead any time soon, but I can't promise that the paper will be freely available to those outside of academic institutions. If the paper is within the past 10 years, it may be available on astro-ph, but otherwise make note of the reference and look it up in the library.

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Thank you SpaceTiger. I would add one paper:

A Universal Density Profile from Hierarchical Clustering
Julio F. Navarro, Carlos S. Frenk, Simon D.M. White
http://arxiv.org/abs/astro-ph/9611107

It discusses mainly results of simulations for the density profile of halos. I have seen this paper cited many times (the universal "NFW profile") and I assume that it's results are still considered as relevant. To skip the description of the simulations just go to section 5 where the main results are discussed. The main result is summarized in the paper as follows:

 ...our primary goal, namely the presentation of a simple and apparently general theoretical result: hierarchical clustering leads to a universal halo density profile just as it leads to universal distributions of halo axial ratios and halo spins; none of these properties depends strongly on power spectrum, on $$\Omega$$, or on $$\Lambda$$

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 Quote by hellfire Thank you SpaceTiger. I would add one paper
Thanks hellfire, given enough time to think of it, I probably would have added that one as well.

By the way, I'm adding papers to sections by editing the posts, so what you see above is not the complete and final list for cosmology.

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 Quote by Garth Thank you SpaceTiger for those references, this site is as good as having a very versed library service! It is a pity the Guth paper cannot be downloaded free, does anyone know where it may be obtained? Garth
Garth, I cannot promise that the SLAC link will work for you. I have a SLOW dial-up connection and I couldn't get it to download, but hopefully you can. Good luck!

http://www.slac.stanford.edu/pubs/sl...-pub-2576.html
 Recognitions: Gold Member Science Advisor An excellent selection, ST. I have a fair collection of my own. Will sift, sort and nominate with your approval.

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 Quote by turbo-1 Garth, I cannot promise that the SLAC link will work for you. I have a SLOW dial-up connection and I couldn't get it to download, but hopefully you can. Good luck! http://www.slac.stanford.edu/pubs/sl...-pub-2576.html
Thank you turbo-1, it didn't work last night but when I tried this morning it downloaded straight away.

Garth
 Recognitions: Gold Member Science Advisor Staff Emeritus This could be the "A&C reference library v.2". :) stickifying it...
 Recognitions: Gold Member Science Advisor From my private collection of favorites over the past 10 years: http://arxiv.org/abs/astro-ph/0402512 Type Ia Supernova Discoveries at z>1 From the Hubble Space Telescope: Evidence for Past Deceleration and Constraints on Dark Energy Evolution 397 citations Easily the most important paper of 2004 to date. It further solidifies the case for dark energy. Heavily cited already for being relatively recent. http://arxiv.org/abs/astro-ph/0302431 Primordial Nucleosynthesis in Light of WMAP 81 citations Not hugely cited to date, but one of the most important papers of 2003. It uses WMAP data to independently corroborate BBN elemental abundance predictions. http://arxiv.org/abs/astro-ph/0305008 Cosmological Results from High-z Supernovae 332 citations This high z supernova data was crucial in ruling out possible systematic effects in low redshift data, bolstering the case for dark energy. http://arxiv.org/abs/astro-ph/0205387 Cosmological Parameters from Cosmic Background Imager Observations and Comparisons with BOOMERANG, DASI, and MAXIMA 163 citations The CBI study, while rather insensitive compared to WMAP, was the first sensitive enough to detect the structures that gave rise to galactic clusters. It also provided important confirmation of prior studies. http://arxiv.org/abs/astro-ph/0104455 The Farthest Known Supernova: Support for an Accelerating Universe and a Glimpse of the Epoch of Deceleration 289 citations One of the early, high z supernova observations that provided important evidence in favor of the accelerating universe hypothesis. http://arxiv.org/abs/astro-ph/0004404 A Flat Universe from High-Resolution Maps of the Cosmic Microwave Background Radiation 897 citations These are the COBE results, the first definitive study supporting the LCDM model. WMAP later confirmed these findings to high precision. http://arxiv.org/abs/astro-ph/0006053 A Fundamental Relation Between Supermassive Black Holes and Their Host Galaxies 515 citations Among the most startling finds in the past ten years, IMO. It immediately attracted a huge amount of interest. http://arxiv.org/abs/astro-ph/9911476 Reverberation Measurements for 17 Quasars and the Size-Mass-Luminosity Relations in Active Galactic Nuclei 284 citations This paper relates an important discovery regarding the luminosity function of AGN's. http://arxiv.org/abs/astro-ph/9812133 Measurements of Omega and Lambda from 42 High-Redshift Supernovae 2144 citations This is the original Perlmutter paper. One of the most astonishing finds of the 20th century. No doubt already mentioned, but worth mentioning again. http://arxiv.org/abs/astro-ph/9712020 The Cosmic Baryon Budget 437 citations This important paper was among the early results that began severly constraining the permissible fraction of baryonic matter in the universe. WMAP further confirmed this finding. http://arxiv.org/abs/astro-ph/9607060 The Four-Year COBE Normalization and Large-Scale Structure 364 citations The preliminary COBE results. It was quite exciting at the time. http://arxiv.org/abs/astro-ph/9508025 The Structure of Cold Dark Matter Halos 924 citations A companion paper to the one referenced by Hellfire, also a good read. http://arxiv.org/abs/astro-ph/9510034 Galaxy Harassment and the Evolution of Clusters of Galaxies 279 citations Not quite as well known as the NFW papers, but another important paper on the evolution of galactic clusters. It took awhile to compile this, sorry for any redundancies.
 Blog Entries: 9 Recognitions: Homework Help Science Advisor -- Synthesis of the Elements in Stars -- E. Margaret Burbidge, G. R. Burbidge, William A. Fowler, and F. Hoyle Rev. Mod. Phys. 29, 547 - 650 (1957) http://prola.aps.org/pdf/RMP/v29/i4/p547_1
 On the Gravitational Field of a Mass Point According to Einstein’s Theory K. Schwarzschild, Sitzungsber.Preuss.Akad.Wiss.Berlin (Math.Phys.) 1916 (1916) 189-196 Full Text On a Stationary System with Spherical Symmetry Consisting of Many Gravitating Masses. A. Einstein, Annals of Mathematics Vol 40. No. 4 Oct 1939 First Page
 A Relation Between Distance and Radial Velocity Among Extra-Galactic Nebulae Edwin Hubble, P.N.A.S., March 15, 1929 vol. 15 no. 3 168-173 Acrobat pdf document While the Big Bang may have started 13.5 billion years ago, recognition of the Big Bang arguably started here.
 In general, I would suggest to people new in a field to go through a review paper, like the ones published in ARAA (Annual Reviews in Astronomy and Astrophysics), which repeat the same topics every few years, whenever appropriate. Authors of such papers put their contributions on astro-ph most of the time!

 Quote by Ophiolite A Relation Between Distance and Radial Velocity Among Extra-Galactic Nebulae Edwin Hubble, P.N.A.S., March 15, 1929 vol. 15 no. 3 168-173 Acrobat pdf document While the Big Bang may have started 13.5 billion years ago, recognition of the Big Bang arguably started here.
does anybody understands this paper? how does he derive that velocity is prpotional linearly to the distanse of the nebulae?